DE102004031319A1 - Housing part with an axial clearance compensation element, and production method of such - Google Patents

Abstract

Housing part (10) for a drive unit (88) and manufacturing method thereof, with a molded elastic radial seal (28) having a radial sealing surface (40) for watertight completion of a housing (90), wherein the housing part (10) by means of integrally formed locking elements (52, 56) with corresponding counter-latching elements (56, 52) of the housing (90) is connectable to axially fix the housing part (10) on the housing (90), wherein on the housing part (10) elastic, axial clearance compensation elements (48) are formed, which form an axial abutment surface (50) of the housing part (10) for the housing (90).

Description

The The invention relates to a housing part for a drive unit with an axial clearance compensation element, and a method for Manufacture of such according to the preamble of the independent claims.

With the DE 200 04 338 U1 is a drive unit has become known in which a transmission housing is closed with a housing part designed as a plug-in module. The housing part in this case has a substantially rectangular radial seal, which is pressed during insertion into an approximately rectangular shaft of the gear housing to a radial wall of the same. Since the contact forces of the radial seal act approximately perpendicular to the axial mounting direction, the housing part is fastened with separate connection means on the housing, for which purpose mounting holes for receiving the connecting means are integrally formed on the housing part. The use of separate connection means requires a separate assembly step and increases the variety of components, which is undesirable for fully automatic manufacturing.

Advantages of invention

The housing part according to the invention, as well as the method according to the invention for producing the same having the features of the independent claims the advantage that by the molding of axial clearance compensation elements dispensed with separate connection means between the housing part and the housing can be. Instead of the separate connection means can on Housing part and on the housing each latching and counter-locking elements are formed, whereby the Part variety is reduced and an additional assembly step is eliminated. there generate the clearance compensation elements, which abut with an axial abutment surface on the housing, an elastic restoring force in the axial mounting direction, for a reliable fixation of Locking elements provide. In the radial seal are compared to an axial seal significantly lower assembly forces for the housing part necessary. The in the axial direction acting forces are only for backlash-free axial fixation of the component and not necessary for its sealing. In this way can cost and mount low a play-free seat of an electronic module in a slot a drive unit can be realized, with vibration noises effective be prevented.

By in the subclaims executed Features are advantageous developments of the housing part according to the invention, and its manufacturing process possible. Unlike one axial seal can the sealing lips of the radial seal not at the same time an elastic contact surface for the Connection of the housing part with the housing form. Therefore, here the clearance compensation elements form a separate Stop surface the axially over the radial sealing surface extends and axially spaced therefrom. This allows one deeper engagement of the radial seal in the opening of the housing until an end face of the housing at the stop surface of the housing part is applied, creating a reliable Seal ensured is.

Around a sufficient restoring force To achieve in the field of locking elements, the clearance compensation elements on the Circumference of the radial seal arranged where the locking elements formed are.

For an im essential rectangular radial seal are preferably four Backlash elements, two each, on the two long sides of the Right-sided arranged.

For the axial Backlash elements are the same elastic material, as for the formation of the radial seal, for example an elastomer or a thermoplastic, whereby no additional manufacturing Material must be kept.

Especially Cheap it is the one-piece axial clearance compensation elements in one operation with the radial seal to the housing part to mold. For this purpose, a relatively inexpensive two-component injection molding process be used.

In order to the lash adjusters the sealing effect of the axial sealing surface is not affect are due to production between the radial sealing surface and the stop surfaces arranged axially webs, wherein the radial outer surface radially spaced from the radial sealing surface lies.

In a preferred embodiment the axial webs are conical, so that in the axial Introduce of the housing part this within the opening of the housing is radially centered. Due to the axial distance to the radial sealing surface their sealing effect is not affected by the cone.

By injecting the radial seal in a plane approximately perpendicular to the mounting direction, the cover-shaped base body of the housing part is formed for the purpose of space saving relatively flat, whereby over the entire circumference of the radial Sealing sufficient radial contact forces are effective.

In dependence the material used by the lash adjusters and the training the locking elements can in a simple manner on the shape and dimensions thereof the required elastic restoring force be set to a reliable locking of the locking elements to ensure.

Especially economical can the housing part be produced by injection molding, wherein the molding the axial extensions with the stop surfaces for the casing practically no additional Costs caused. The axial extensions can as well as the riser be spared in the injection mold and by means of injection molding with connected to the previously manufactured housing part base body become.

drawings

Show it 1 a perspective view of a housing part,

2 another illustration of the same housing part and

3 a section through the housing part and

4 a perspective view of a closed housing a drive unit

description of the embodiment

In 1 is a housing part 10 shown, which is suitable, a transmission or electronics housing a drive unit 88 complete watertight. This in 4 Housing shown in detail 90 the drive unit 88 has, for example, an approximately rectangular opening 94 with a radial sidewall 93 in, to close the housing 90 the housing part 10 in the axial direction 12 is introduced. The housing part 10 has a cover element 14 with an inside 16 and an outside 18 on. On the outside 18 is for example a plug 20 molded, with electrical contacts 22 through the lid element 14 on the inside 16 be performed. On the inside 16 the lid element 14 is a circumferential wall 24 with a radial outer surface 26 molded, at the a circumferential radial seal 28 is injected. The radial seal 28 is approximately rectangular with radii rounded at the corners 30 formed to a corresponding rectangular opening 94 seal in the housing. The radial seal 28 has, for example, two or more sealing lips 31 on which a radial sealing surface 40 form, which has an axial extension 41 having. When inserted into the housing 90 becomes the radial seal 28 due to occurring radial forces 32 (perpendicular to the axial direction 12 ) against a radial wall 93 of the housing 90 presses and deforms elastically. Each about in the middle of the short side 34 the radial seal 28 is a climbing dome 36 arranged, extending from the radial seal 28 in the axial direction 12 extends. In the embodiment penetrates the stile 36 the lid element 14 and forms on the outside 18 an axial end 38 like this in 2 is shown. To the sealing effect of the radial seal 28 not to be influenced are the climbing dome 36 offset radially, to the radial sealing surface 40 arranged. In the exemplary embodiment, for example, an outer radial wall of the riser 36 within the radial sealing surface 40 , Inside the radial seal 28 is also an injection point 42 arranged, via connectors 44 with the radial seal 28 connected is. In that both the riser 36 , as well as the injection point 42 not in the area of the radial sealing surface 40 are arranged, this is particularly homogeneous, formed without weld line and Anspritzstörungen. In addition to the climbing domes 36 are to the radial seals 28 further axial extensions 46 molded, as axial play compensation elements 48 serve. The clearance compensation elements 48 On the one hand, they are supported on the inside 16 the lid element 14 from and form on the opposite side of an axial stop surface 50 for the housing 90 , Due to the shape and dimensions of the clearance compensation elements 48 can be a spring force 78 be set, which for a catch connection 52 between the housing part 10 and the housing 90 necessary is. For this purpose are on the housing part 10 For example, locking lugs 52 formed in corresponding locking tabs 56 of the housing 90 intervention. As an alternative to the locking elements 52 can the housing part 10 be attached by means of separate connection means, including on the housing part 10 Recordings 54 are formed for separate connection means, such as screws or rivets.

In 2 is clearly seen that the axial extensions 46 the clearance compensation elements 48 , as well as the Steigdome 36 radially offset from the radial sealing surface 40 are arranged so that these are the axial walls of the housing 90 during axial insertion of the housing part 10 in the case 90 do not touch. The axial clearance compensation elements 48 are in the range of locking elements 52 arranged, in an alternative embodiment as a detent eyelets 56 can be formed in the corresponding latching hook 52 of the housing 90 are engageable.

The housing part 10 is produced by means of a two-component injection molding process, wherein in a first step, a base body of a first component 11 For example, hard plastic is injected. During this first spraying operation, an insert is inserted in the mold, which forms the mold for the second component 60 having. After removal of the insert, in a second step, the second component 60 at the injection point 42 injected into the injection mold, wherein as a second component 60 an elastic material, preferably an elastomer or thermoplastic is used. In an alternative injection molding process, the two components are molded in two different nests of a tool, in which case the housing part 10 from one nest to the other nest.

3 shows a section along the line III-III in the 1 through the housing part 10 , The radial seal 28 is at the radial outer surface 26 the surrounding wall 24 formed. Subsequently, the axial extension extends in the axial direction 46 acting as axial play compensation element 48 is trained. It is at an axial web 74 that is starting from the radial seal 28 extends axially, the stop surface 50 for a frontal area 70 of the housing 90 formed. On the stop surface 50 opposite side 51 supports the axial clearance compensation element 48 on an axial collar 72 of the housing part 10 from the inside 16 the lid element 14 is formed. In this case, the radial sealing surface 40 a larger diameter than the axial webs 74 that the stop surface 50 with the sealing lips 31 combines. The axial clearance compensation elements 48 have an axial thickness 76 and a width 77 on, on the depending on the elastic material used, the restoring force 78 and the travel are adjustable. On the left side of the 3 has the axial web 74 in the transition to the stop area 50 a cone 82 on the axial insertion of the housing part 10 in the axial direction 12 the housing part 10 inside the opening 92 in the case 90 radially centered. Regarding the circumference of the radial seal 28 is in the range of the clearance compensation element 48 on the housing part 10 one locking element each 52 formed, for example, as a latch 52 is formed, which in a corresponding latching eye 56 of the housing 90 is tangible.

In 4 is the housing part 10 in a gear electronics housing 90 a drive unit 88 inserted, wherein a substantially rectangular opening 92 of the housing 90 is sealed watertight. This is the stop surface 50 on a front side 94 of the housing 90 on, wherein the axial clearance compensation element 48 an elastic restoring force 78 generated, which ensures that the locking lugs 52 of the housing part 10 firmly in the detent eyes 56 of the housing 90 stay fixed. In this locking connection are no additional connection means for fixing the housing part 10 necessary.

An unspecified injection molding tool for the production of the housing part 10 is designed as a slide-less tool, and preferably has a parting plane, in the diagonal of the substantially rectangular radial seal 28 lies. As a result, any small burrs that are caused by the parting surface come at the rounded corners 30 on. But at these corners occur when inserting the housing part 10 in the radial wall 93 of the housing 90 increased radial forces 32 so that slight unevenness in this area does not impair the sealing effects.

It should be noted that many possible combinations of the individual features are possible with regard to the embodiment shown in the figures and the description. For example, the concrete shape and the cross-section of the radial seal 28 adapted to the respective applications. Likewise, the number and the arrangement, as well as the shape of the compensation elements 48 and the locking elements 52 . 56 be varied. In an alternative embodiment, the compensation elements 48 not with the radial seal 28 connected, but as separate parts of the housing part 10 molded. Also, the shape or function of the housing part 10 not limited to the embodiment and may for example also for pure plug elements or for cover elements 14 without electrical contacts 22 be used. The housing part according to the invention preferably takes place 10 Application for actuators 88 in the motor vehicle, for example, for electronic modules of power window or sunroof drives.

Claims (10)

Housing part ( 10 ) for a drive unit ( 88 ), with an integrally formed elastic radial seal ( 28 ), which has a radial sealing surface ( 40 ) for watertight closure of a housing ( 90 ), wherein the housing part ( 10 ) by means of molded locking elements ( 52 . 56 ) with corresponding counter-latching elements ( 56 . 52 ) of the housing ( 90 ) is connectable to the housing part ( 10 ) axially on the housing ( 90 ), characterized in that on the housing part ( 10 ) elastic, axial clearance compensation elements ( 48 ) are formed, the axial abutment surfaces ( 50 ) of the housing part ( 10 ) for the housing ( 90 ) form. Housing part ( 10 ) according to claim 1, characterized in that the stop surfaces ( 50 ) offset axially relative to the axial extent ( 41 ) of the radial sealing surface ( 40 ) are arranged. Housing part ( 10 ) according to one of claims 1 or 2, characterized in that the axial clearance compensation elements ( 48 ) - in particular two to four - with respect to the circumferential direction of the radial seal ( 28 ) in the region of the locking elements ( 52 . 56 ) are arranged. Housing part ( 10 ) according to one of the preceding claims, characterized in that the axial clearance compensation elements ( 48 ) and the radial seal ( 28 ) are made of the same material, in particular an elastomer or thermoplastic. Housing part ( 10 ) according to one of the preceding claims, characterized in that the axial clearance compensation elements ( 48 ) in one piece with the radial seal ( 28 ) to the housing part ( 10 ) are sprayed. Housing part ( 10 ) according to one of the preceding claims, characterized in that the stop surfaces ( 50 ) via axial webs ( 74 ) with the radial seal ( 28 ), the webs ( 74 ) radially within the radial sealing surface ( 40 ) are arranged. Housing part ( 10 ) according to one of the preceding claims, characterized in that the axial webs ( 74 ) as centering domes ( 82 ) are formed, which the housing part ( 10 ) radially within an opening ( 92 ) of the housing ( 90 center). Housing part ( 10 ) according to one of the preceding claims, characterized in that the radial seal ( 28 ) approximately in a radial plane approximately perpendicular to the mounting direction ( 12 ) of the housing part ( 10 ) is arranged. Housing part ( 10 ) according to one of the preceding claims, characterized in that the shape and dimensions ( 76 . 77 ) of the clearance compensation elements ( 48 ) a restoring force ( 78 ) between the stop surface ( 50 ) of the housing part ( 10 ) and a corresponding axial support surface ( 94 ) of the housing ( 90 ) is adjustable. Method for producing a housing part ( 10 ) with an integrally formed radial seal ( 28 ) - in particular according to one of claims 1 to 9 -, wherein in a first step the housing part ( 10 ) is injected from a first component, and in a second step, the radial seal ( 28 ) is molded from a second component, characterized in that in one piece with the radial seal ( 28 ) by means of the second component axial extensions ( 46 ) are molded on the one hand on an axial collar ( 72 . 16 ) of the housing part ( 10 ) and on the other hand a contact surface ( 50 ) of an axial play compensation element ( 48 ) form.